Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN

Observations and theory show that, on average, 28% of the binding-energy in aurophilic interaction can be attributed to relativistic expansion of the gold d-orbitals. GLD E5CUw66jvPSGirggrek8vagARNM2ZQErEN